Application of [68Ga]PSMA PET/CT in Diagnosis and Management of Prostate Cancer Patients

Purpose: The early and accurate diagnosis of locoregional recurrence or metastasis in prostate cancer (PC) has a significant impact on treatment options. Prostatic-specific membrane antigen (PSMA) positron emission tomography (PET)/x-ray computed tomograph (CT) imaging has recently been introduced as a novel procedure in managing PC. The aim of this study was to evaluate the efficacy of [68Ga]PSMA PET/CT in managing PC patients and to compare the detection rate of PET/CT and bone scans (BSs) in detecting bone metastasis. Procedures: We evaluated 415 patients with PC who underwent [68Ga]PSMA PET/CT between March 2015 and September 2018. The patients were classified into three groups: staging, biomedical recurrence (BCR), and follow-up or monitoring, based on the intent to perform PET/CT. Results: We evaluated 415 patients aged 41–99 (68.25 ± 9.59). Of these patients, 344 (82.9 %) had at least one localized lesion. The detection rates were 48.3 %, 52.6 %, 74.4 %, 79.6 %, and 93.9 % for a PSA value of 8, respectively (p 1.16 ng/ml was obtained for PSA value, which equates to specificity of 75 % and sensitivity of 77 %. In comparing BSs and PET/CT, a region-based analysis showed the superiority of PET/CT over BSs for all regions expect the skull (p < 0.05). PET/CT detected 258 suspicious regions, 255 of which were metastatic and three of which were equivocal. BSs detected only 223 suspicious regions, 203 of which were metastatic and 20 of which were equivocal. Conclusions: [68Ga]PSMA PET/CT showed a high detection rate for lesions in PC patients. PSA level, GS, and a PSA doubling time of less than 6 months were shown to be the affective variables. In addition, 68Ga-PSMA PET/CT showed better performance in detecting bone lesions than BSs

An update on PET-based molecular imaging in neuro-oncology: Challenges and implementation for a precision medicine approach in cancer care

PET imaging using novel radiotracers show promises for tumor grading and molecular characterization through visualizing molecular and functional properties of the tumors. Application of PET tracers in brain neoplasm depends on both type of the neoplasm and the research or clinical significance required to be addressed. In clinical neuro-oncology, 18F-FDG is used mainly to differentiate tumor recurrence from radiation-induced necrosis, and novel PET agents show attractive imaging properties. Novel PET tracers can offer biologic information not visible via contrast-enhanced MRI or 18F-FDG PET. This review aims to provide an update on the complementary role of PET imaging in neuro-oncology both in research and clinical settings along with presenting interesting cases in this context